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Enhancing learning in a perceptual-cognitive training paradigm using EEG-neurofeedback

Brendan Parsons, Jocelyn Faubert

2021Scientific Reports22 citationsDOIOpen Access PDF

Abstract

This paper provides the framework and supporting evidence for a highly efficient closed-loop paradigm that modifies a classic learning scenario using real-time brain activity in order to improve learning performance in a perceptual-cognitive training paradigm known as 3-dimensional multiple object tracking, or 3D-MOT. Results demonstrate that, over 10 sessions, when manipulating this novel task by using real-time brain signals, speed and degree of learning can be substantially improved compared with a classic learning system or an active sham-control group. Superior performance persists even once the feedback signal is removed, which suggests that the effects of enhanced training are consolidated and do not rely on continued feedback. This type of learning paradigm could contribute to overcoming one of the fundamental limitations of neurofeedback and other cognitive enhancement techniques, a lack of observable transfer effects, by utilizing a method that can be directly integrated into the context in which improved performance is sought.

Topics & Concepts

NeurofeedbackComputer scienceCognitionElectroencephalographyBrain–computer interfacePerceptionContext (archaeology)Task (project management)Transfer of learningCognitive trainingMotor learningArtificial intelligenceHuman–computer interactionCognitive psychologyPsychologyNeuroscienceBiologyPaleontologyEconomicsManagementEEG and Brain-Computer InterfacesNeural and Behavioral Psychology StudiesNeural dynamics and brain function
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